DE2639166A1 - PROCESS FOR PRODUCING MASTIX ADHESIVES - Google Patents

Description

FROM KREISLER SCHÖNWALD MEYER EISHOLD FUES FROM KREISLER KELLER SELTING

PATENT LAWYERS Dr.-Ing. by Kreisler f 1973

Dr.-Ing. K. Schönwald, Cologne Dr.-Ing. Th. Meyer, Cologne Dr.-Ing. K. W. Eishold, Bad Soden Dr. J. F. Fues, Cologne Dipl.-Chem. Alek von Kreisler, Cologne Dipl.-Chem. Carola Keller, Cologne Dipl.-Ing. G. Selting, Cologne

AvK / Ax 5 COLOGNE 1 3o Aug 1976

DEICHMANNHAUS AT THE MAIN RAILWAY STATION

EI du Pont de Nemours and Company, Wilmington, Delaware 19898 (USA). ·

Method of making mastic adhesives

The invention relates to a mastic adhesive that for laying wall tiles, floor tiles and the like. suitable and has a longer shelf life than the known mastic adhesives.

It is known to produce mastic adhesives from polychloroprene latex by mixing a water-immiscible solvent for the polychloroprene with the latex in the presence of a cationic or amphoteric surfactant. Such a process is described in U.S. Patent 3,878,154. The mastic adhesives produced by this process are satisfactory if they are used shortly after production, but not stable enough to be able to be stored for a long period of time. For example, these adhesives are unsatisfactory, when stored at 50 ⁰ G 3 weeks.

The invention relates to a method for producing a Mastixklebstoffs that at 50 ⁰ C for 6 weeks or longer is storage stable, that it is still usable.

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Telephone: (02 21) 23 45 41-4 Telex: 880 2307 dopa d Telegram: Dompalent Cologne

The polychloroprene latex used in the method according to the invention is a mixture of a high solids

Gel latex and a high-solids target latex. The interpreted
Print "gel" latex | that at least 60% by weight of the chloroprene polymer in the latex is insoluble in toluene. The term "sol" latex means that the chloroprene polymer is almost completely soluble in toluene. The desired latex is preferably completely soluble in toluene, but a "sol" latex can contain up to about 15% by weight of insoluble chloroprene polymer and still be suitable. The polymer of Sollatex should have a Mooney viscosity (ML - 2 1/2 100 ⁰ C) have from 30 to 45. The weight ratio of the polymer from the gel latex to the polymer from the target latex should be in the range from 60:40 to 40:60. The mixture of latices should have a solids content (ie a polychloroprene content) between 50 and 65% by weight. Normally, both the sol latex and gel latex have a solids content between 50 and 65%, but it is possible to make a satisfactory product using starting materials outside this range provided that the solids content of the mixture is between 50 and 65% by weight .-% lies.

The mixture of the latices is then mixed with an organic, water-immiscible solvent for polychloroprene, containing an inert filler and a dissolved adhesion enhancing resin. As with Water-immiscible solvents for polychloroprene are all solvents or solvent mixtures, in which a non-crosslinked polychloroprene in an amount of 10 or more parts by weight per 100 parts by weight Solvent soluble, and that in water in an amount of 5 parts by weight or more per 100 parts Are insoluble in water. Solvents with a solubility parameter between 8 and 9.5 are preferred

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a hydrogen bond index between 2 and 5.5. These two values are determined according to the method described in the company publication "Du Pont Elastomers in Adhesives" in the article by J.F. Hagman "Solvent Systems for Neoprene - Predicting Solvent Strength", March 1964 will. Representative suitable solvents are benzene, toluene, xylene, turpentine and mixtures of toluene and cyclohexane preferably in a volume ratio of 60:40. Preferably the Amount of the water-immiscible solvent chosen so that the total solids content of the mastic mass is between 15 and 80% by weight and at least the amount by weight of the existing polychloroprene is the same.

The resin increasing the adhesive strength can be arbitrary can be chosen from hundreds of known resins. Representative examples are terpenes, terpene phenolic resins, Oumarone-indene resins, phenol-modified coumarone-indene resins, phenolic resins modified with rosin, modified rosin, rosin esters and pentaerythritol esters * Resins that contain free carboxyl groups or functional phenolic hydroxyl groups, e.g. those modified with rosin, are preferred Phenolic resins, modified rosins and terpene phenolic resins and their reaction products with magnesium oxide. The amount of resin used is not critical important, but is generally in the range between 10 and 200 parts by weight per 100 parts by weight of polychloroprene, 20 to 60 parts by weight being preferred.

Fillers are required for the adhesives according to the invention. Any fillers necessary for the usual known mastic adhesives and adhesives used are suitable. Suitable fillers include Clay, calcium carbonate, diatomaceous earth, silica flour and carbon black. The amount of filler is generally between 50 and 300 parts by weight per 100 parts by weight of polychloroprene. the

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The amount of filler usually changes with the amount of the Solvent and increases with increasing amount of solvent. Carbon black is usually only used for coloring in low Concentrations of 3 to 10 parts are used, but larger amounts can also be used if necessary will.

Other mixture additives, e.g. magnesium oxide and zinc oxide, antioxidants and hardeners, are used in mastic adhesives added to the physical properties and durability of those made with the mastic adhesive To improve bonding. These materials are the 'substances' that are commonly used used in polychloroprene latex technology.

The sol and gel latices can be produced by known processes. The main difference between the The method for producing a gel latex and the method for producing a target latex consists in that a larger amount of a chain carrier is used to manufacture a target latex. As a chain transmitter Diethylxanthogen disulfide and tridecyl mercaptan are suitable. The sol and gel latices can be made by direct Polymerization of the latex up to a high solids content can be produced by the known processes, or the Latices can be made with lower solids and then creamed to make latices with high Form solid content.

The method according to the invention for the preparation of mastic adhesives can be summarized as follows:

Process for the production of mastic adhesives with improved Storage stability, characterized in that one

A) a high solids polychloroprene latex and a toluene-insoluble gel content of

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2639Ί66

at least 60% and a polychloroprene latex, in which the polymer is at least almost completely soluble in toluene, is mixed to form a mixture with a solids content between about 50 and 65% by weight, the polychloroprene, which is at least almost completely soluble in toluene, has a Mooney viscosity (ML - 2 1/2, 100 ^° C.) of 30 to 45 and the ratio of the polychloroprene, which is at least almost completely soluble in toluene, to the polychloroprene from the other latex, which is at least 60% in toluene insoluble gel, is 60:40 to 40:60, and

B) the mixture with an organic, nicnt with water Miscible solvent for polychloroprene mixes, the inert filler and a dissolved one, the adhesion Contains increasing resin until the viscosity of the mixture increased to the viscosity of the mastic area and a water-in-oil dispersion was obtained.

The process can be carried out in the presence of amphoteric or cationic surfactants of the type and in the amounts mentioned in US Pat. No. 3,878,154 However, surfactants are not necessary to obtain a good product. A mixture of polyoxyethylated Fatty amine and polyoxyethylated sorbitoleate are preferred as surfactants.

After the mixture of the latices and the one with water not Miscible solvents have been mixed into a mastic, the viscosity and / or the storage stability the mastic can be further increased by adding water and then further mixing. The too The amount of water added at this point can range from zero to about 40 parts per 100 parts of the oil-in-water dispersion can be varied. Preferably 5 to parts of water are added.

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A. JB 100 100 1.72 1.72 0.15 0.15 0.008 0.008 0.10 -

In the following examples, all quantities in parts and percentages relate to the weight, unless otherwise stated.

Examples of making latices

Two chloroprene-in-water emulsions are used of the following approaches:

Parts

Chloroprene solutions

Chloroprene

Dimerized linoleic acid Disproportionated rosin 4-t-butylcatechol (90%) Diethyl xanthogen disulfide

Primary tridecyl mercaptan - 0.38

Aqueous solutions

Water 57 57

Potassium salt of the condensate of formaldehyde and alkylnaphthalenesulfonic acids ^c ^

Potassium hydroxide

Dextrose

Potassium sulfite

(a) Essentially a C ~ g dibasic acid which is formed by the polymerization of linoleic acid. The acid contains about 75% dimers, about 22% trimer and about 3% monomer. It is commercially available under the name "Empol 1022" (manufacturer Emery Industries, Inc.).

(b) Disproportionate rosin ("Resin 3003", made by Hercules, Inc.) with potassium carbonate is partially neutralized and has an acid number of 157. 1.9 parts of this resin correspond to 1.76

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0.91 0.91 1.10 1.10 0.10 0.10 0.10 0.10

Share resin in free acid form.

(c) This material is the product of the trade name "Daxad 11 KLS" (manufacturer W.R. Grace and Co.). It is the potassium salt of the condensate of formaldehyde and alkylnaphthalenesulfonic acid. It is stable in the presence of mild acids and alkalis. It has practically no tendency to foam and has a pH value of 7 to 8.5 (1% solution at 22 ° C). The crowd in parts is on the active Component related.

The polymerization is carried out at 45 ° C in a nitrogen atmosphere carried out by adding, if necessary, an aqueous solution containing 2.5% potassium persulfate and 0.06% sodium 2-anthraquinonesulfonate contains, is added. During the final stages of the polymerization, a catalyst solution is used used with double concentration. When the polymerization progressed to a conversion of 89% is, it is by adding 0.02 part of 4-t-butylcatechol and 0.02 part of phenothiazine in one Toluene emulsion, each containing 1% of these compounds, terminated. Finally, 2.5 parts of an aqueous, Solution containing 35% of the potassium salt of disproportionated rosin ("Dresinate 91", manufacturer Hercules, Inc.), whereupon unreacted chloroprene is removed from the latex by steam distillation.

After steam distillation, latex A has a non-volatile solids content of 59% and contains a polymer which is 79% insoluble in toluene. After steam distillation, latex B has a non-volatile solids content of 59% and contains a polymer which has a Mooney viscosity (ML -2 1/2, 100 ^° C.) of 39 and is essentially completely soluble in toluene.

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50 g of a hydrocarbon resin having a melting point of 100 ° C '( "Picco 6100", manufactured by Hercules, Inc.), 10 g of a modified terpene-phenol resin having a melting point of 150 ⁰ C ( "Durez 12603" manufactured by Hooker Chemical Corp. ), 30 g of t-liutylphenol-formaldehyde resin ("CKM 1634", manufactured by Union Carbide Corp.), 2 g of 2.2 ^f -methylene-bis / 4-methyl-6-t-butylphenol7 and 3 g of a mixture of polyoxyethylated ^ ettamine and polyoxyethylated sorbitoleate ("Atlas G 2090", ICI United States, Inc., in 9 g of water) are dissolved in a mixture of 70 g of toluene, 1409 hexane and 140 g of acetone. 4 g of magnesium oxide, 5 g of zinc oxide and 140 g of bentonite are added to the solution of the resins obtained, whereupon the mixture is stirred until the bentonite is completely moistened with the solution.

A well-homogenized mixture of 83 g of latex A and 83 g of latex B becomes the same as before with gentle stirring produced, in a 0.95 1-color can contained mixture of resin solution, magnesium oxide, zinc oxide and Given bentonite. The paint can is sealed immediately and placed on a paint shaker Shaken for 5 to 10 minutes. Finally, 50 g of water are added with stirring. That way manufactured viscous mastic is ready to use as an adhesive or sealant and has exceptional good properties in terms of flow behavior during application and adhesion.

The flow behavior on application is a qualitative assessment based on the ease of the from Hand made application of the mastic on a vertical surface with a spatula and the resistor, which the applied mastic opposes the flow on the vertical surface under the force of gravity, a phenomenon known as "walking". The mastic made according to this example

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shows excellent resistance to running, but the job was so easy that it went to that it could be judged that a professional could do a full day's work without being unusually fatigued could.

The mastic produced in the manner described above is placed in a sealed paint can in a held at 50 ⁰ C oven. Its storage stability at this temperature is assessed at intervals of 2, 3, 4 and 6 weeks by checking for phase separation and evaluating the flow behavior during application. The mastic prepared in the manner described has excellent storage stability when stored for 6 weeks at 50 ° C. and shows no phase separation and little or no change in the flow behavior on application.

When the experiment described above was repeated using 91 g of latex A and 75 g of latex B or 75 g of latex A and 91 g of latex B are also mastic adhesives with good flow behavior when applied received immediately after manufacture and with good storage stability.

However, if the ratios of latex A to latex B are greater than 100 g to 66 g or less than 66 g to 100 g, the resistance of the mastic adhesives obtained is insufficient after a storage period of 6 weeks at 50 ° C, although the properties are excellent at the beginning are. If the ratio is greater than 100 g to 66 g, strong phase separation can be observed after 4 weeks at 50 ° C, and if the ratio is less than 66 g to 100 g, the flow behavior after 4 weeks is at 50 ° C deteriorated by an increase in viscosity, i.e. the ease of application decreased.

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Claims (10)

Claims 1) Method of making mastic adhesives using improved storage stability, characterized in that one A) a polychloroprene latex with a high solids content and a toluene-insoluble gel content of at least 60% and a polychloroprene latex in which the polymer is at least almost completely soluble in toluene, forming a mixture with a solids content between about 50 and 65 wt. % mixes, the polychloroprene, which is at least almost completely soluble in toluene, a Mooney viscosity (ML - 2 1/2, 100 ⁰ C) of 30 to 45 and the ratio of the polychloroprene, which is at least almost completely soluble in toluene is, to the polychloroprene from the other latex containing at least 60% of the toluene-insoluble gel, is 60:40 to 40:60, and B) the mixture is mixed with an organic solvent for polychloroprene that is not miscible with water, contains the inert filler and a dissolved adhesion enhancing resin until the viscosity of the mixture is reached increased to the viscosity of the mastic area and a water-in-oil dispersion was obtained. 2) Method according to claim 1, characterized in that the organic, water-immiscible solvent for polychloroprene mixed with the mixture, at least the amount by weight of the polychloroprene im Mixture is the same. 3) Method according to claim 1 and 2, characterized in that the organic, water-immiscible solvent is used in such an amount that the total solids content of the mastic adhesive is between and 80 parts by weight. 7098 11/09 6 2 4) Method according to claim 1 to 3, characterized by the additional measure of having the water-in-oil dispersion Adding water and thereby increasing the viscosity of the mastic adhesive and / or the shelf life of mastic glue improved. 5) Method according to claim 1 to 4, characterized / that the water of the water-in-oil dispersion added in an amount of about 5 to 30 parts per 100 parts of dispersion. 6) Process according to claim 1 to 5, characterized in / that the mixture of the latices and that with water mixes immiscible organic solvents in the presence of a cationic or amphoteric surfactant. 7) Method according to claim 1 to 6, characterized / that the water-immiscible organic solvent 10 to 200 parts by weight of a die Adhesion enhancing resin per 100 parts of that in the latex contained. Adds polychloroprene. 8) Method according to claim 1 to 7, characterized in that that about 50 to 300 parts are inert to the water-immiscible organic solvent Adding filler per 100 parts of the polychloroprene contained in the latex. 9) Method according to claim 8, characterized in that that bentonite is used as a filler. 10) Method according to claim 1 to 9, characterized in that that a mixture of polyoxyethylated fatty amine and polyoxyethylated sorbitoleate is used as the surfactant used. 709811/0962 '